University of Copenhagen; University of Groningen; University of Cambridge; Aarhus University; National Science & Technology Development Agency - Thailand; National Center Genetic Engineering & Biotechnology (BIOTEC); KU Leuven; University of Exeter
Type
Article
Source Title
AMERICAN NATURALIST
Year
2009
Volume
174
Issue
3
Page
424-433
Open Access
Green Published
Publisher
UNIV CHICAGO PRESS
DOI
10.1086/603640
Format
PDF
Abstract
Specialized parasites are expected to express complex adaptations to their hosts. Manipulation of host behavior is such an adaptation. We studied the fungus Ophiocordyceps unilateralis, a locally specialized parasite of arboreal Camponotus leonardi ants. Ant-infecting Ophiocordyceps are known to make hosts bite onto vegetation before killing them. We show that this represents a fine-tuned fungal adaptation: an extended phenotype. Dead ants were found under leaves, attached by their mandibles, on the northern side of saplings similar to 25 cm above the soil, where temperature and humidity conditions were optimal for fungal growth. Experimental relocation confirmed that parasite fitness was lower outside this manipulative zone. Host resources were rapidly colonized and further secured by extensive internal structuring. Nutritional composition analysis indicated that such structuring allows the parasite to produce a large fruiting body for spore production. Our findings suggest that the osmotrophic lifestyle of fungi may have facilitated novel exploitation strategies.
National Parks, Thailand; Oticon Foundation; Novo scholarship; Danish National Research Foundation; Marie Curie Intra-European Fellowship; Novozymes/WWF
